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SubjectRe: [RFC][PATCH 1/3] locking: Introduce smp_acquire__after_ctrl_dep
On Mon, Jun 06, 2016 at 10:28:24AM -0700, Paul E. McKenney wrote:
> commit 43672d15aeb69b1a196c06cbc071cbade8d247fd
> Author: Paul E. McKenney <paulmck@linux.vnet.ibm.com>
> Date: Mon Jun 6 10:19:42 2016 -0700
>
> documentation: Clarify limited control-dependency scope
>
> Nothing in the control-dependencies section of memory-barriers.txt
> says that control dependencies don't extend beyond the end of the
> if-statement containing the control dependency. Worse yet, in many
> situations, they do extend beyond that if-statement. In particular,
> the compiler cannot destroy the control dependency given proper use of
> READ_ONCE() and WRITE_ONCE(). However, a weakly ordered system having
> a conditional-move instruction provides the control-dependency guarantee
> only to code within the scope of the if-statement itself.
>
> This commit therefore adds words and an example demonstrating this
> limitation of control dependencies.
>
> Reported-by: Will Deacon <will.deacon@arm.com>
> Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com>

Acked-by: Peter Zijlstra (Intel) <peterz@infradead.org>

>
> diff --git a/Documentation/memory-barriers.txt b/Documentation/memory-barriers.txt
> index 147ae8ec836f..a4d0a99de04d 100644
> --- a/Documentation/memory-barriers.txt
> +++ b/Documentation/memory-barriers.txt
> @@ -806,6 +806,41 @@ out-guess your code. More generally, although READ_ONCE() does force
> the compiler to actually emit code for a given load, it does not force
> the compiler to use the results.
>
> +In addition, control dependencies apply only to the then-clause and
> +else-clause of the if-statement in question. In particular, it does
> +not necessarily apply to code following the if-statement:
> +
> + q = READ_ONCE(a);
> + if (q) {
> + WRITE_ONCE(b, p);
> + } else {
> + WRITE_ONCE(b, r);
> + }
> + WRITE_ONCE(c, 1); /* BUG: No ordering against the read from "a". */
> +
> +It is tempting to argue that there in fact is ordering because the
> +compiler cannot reorder volatile accesses and also cannot reorder
> +the writes to "b" with the condition. Unfortunately for this line
> +of reasoning, the compiler might compile the two writes to "b" as
> +conditional-move instructions, as in this fanciful pseudo-assembly
> +language:
> +
> + ld r1,a
> + ld r2,p
> + ld r3,r
> + cmp r1,$0
> + cmov,ne r4,r2
> + cmov,eq r4,r3
> + st r4,b
> + st $1,c
> +
> +A weakly ordered CPU would have no dependency of any sort between the load
> +from "a" and the store to "c". The control dependencies would extend
> +only to the pair of cmov instructions and the store depending on them.
> +In short, control dependencies apply only to the stores in the then-clause
> +and else-clause of the if-statement in question (including functions
> +invoked by those two clauses), not to code following that if-statement.
> +
> Finally, control dependencies do -not- provide transitivity. This is
> demonstrated by two related examples, with the initial values of
> x and y both being zero:
> @@ -869,6 +904,12 @@ In summary:
> atomic{,64}_read() can help to preserve your control dependency.
> Please see the COMPILER BARRIER section for more information.
>
> + (*) Control dependencies apply only to the then-clause and else-clause
> + of the if-statement containing the control dependency, including
> + any functions that these two clauses call. Control dependencies
> + do -not- apply to code following the if-statement containing the
> + control dependency.
> +
> (*) Control dependencies pair normally with other types of barriers.
>
> (*) Control dependencies do -not- provide transitivity. If you
>

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